Study on Standby Hydraulic of Single-heat-source Single-looped District Heating Network

2022 13th International Conference on Reliability, Maintainability, and Safety (ICRMS) Pub Date : 2022-08-21 DOI:10.1109/ICRMS55680.2022.9944573

Dingyi Mao, Zhizhao He, Peng Wang, Long Ni

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Abstract

Since the concept of reliability was put forward, how to improve the reliability of district heating system to effectively save energy and ensure economic benefits has become a research hotspot. By analyzing the hydraulic performance of district heating network and the possible flow in each pipe under normal and failure scenarios, we proposed the standby hydraulic design framework. Then, the topology and standby hydraulic design mathematical models of typical single-heat-source single-looped district heating network were established. The variation of hydraulic performance was studied by changing the determination method of design flow, the number, and distribution of users on the mainline. Finally, several design rules which can effectively alleviate the hydraulic imbalance under failure scenarios were proposed. The results show that using the method of weighted summation of the possible flow and its probability in each pipe under various operation scenarios to design pipe diameter has the advantages of high hydraulic performance without greatly increasing investment.

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单热源单回路区域供热管网备用水力研究

自可靠性概念提出以来，如何提高区域供热系统的可靠性，从而有效地节约能源，保证经济效益成为研究热点。通过分析区域供热管网在正常和故障情况下的水力性能以及各管道可能的流量，提出了备用水力设计框架。然后，建立了典型单热源单回路区域供热网络的拓扑模型和备用水力设计数学模型。通过改变设计流量的确定方法、干线上用户的数量和分布，研究了水力性能的变化。最后，提出了几种能有效缓解失效工况下水力不平衡的设计原则。结果表明，采用不同工况下各管道可能流量及其概率加权求和的方法设计管径具有水力性能高、投资不增加的优点。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2022 13th International Conference on Reliability, Maintainability, and Safety (ICRMS)

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